CE 212

Course ID:

Course Code & Number

CE 212

Course Title

Engineering Mechanics II

Level

BS

Credit Hours/ ECTS Credits

(3+0+0) 3 TEDU Credits, 5 ECTS Credits

Year of Study:

Sophomore

Semester:

Spring

Type of Course:

Compulsory

Mode of Delivery:

Face-to-face

Language of Instruction:

English

Pre-requisite / Co-requisite::

Catalog Description

Kinematics of particles and planar kinematics of rigid bodies: absolute motion, relative motion. Kinetics of particles: equations of motion, work-energy and impulse-momentum. Systems of particles. Planar kinetics of rigid bodies: planar kinetic equations of motion, equations of work- energy. Introduction to the dynamics of vibrating systems.

Course Objectives

This is an introductory level course on motion of particles and rigid bodies, and forces that cause motion. In this course, Newton's Laws, energy and momentum principles will be explored and dynamic behavior of undamped and damped single degree of freedom systems will be covered.

Software Usage

None

Course Learning Outcomes

Upon successful completion of this course, students will be able to:

1. Examine planar motion of system of particles and rigid bodies by employing kinematic relationships,
2. Calculate forces resulting from planar motions of system of particles and rigid bodies by applying newton's equations,
3. Examine planar motion of particles and rigid bodies by using the principles of work-energy,
4. Examine planar motion of particles and rigid bodies by using the principles of impulse-momentum,
5. Solve undamped/damped free/forced vibration problems of single degree of freedom systems.

Learning Activities and Teaching Methods:

Telling/Explaining Questioning Reading Problem Solving Inquiry Collaborating Simulation & Games Video Presentations

Assessment Methods and Criteria:

Test / Exam Quiz

Assessment Methods and Criteria Others:

Design Content

None

Recommended Reading

1. Vector Mechanics for Engineers: Dynamics by F.Beer, E.R.Johnston, P.Cornwell, 10th Edition, McGraw-Hill, 2012 2. Engineering Mechanics: Dynamics by M.Plesha, G.Gray, F.Costanzo, 2nd Edition, McGraw-Hill, 2012 3. Engineering Mechanics 3 by D.Gross, W.Hauger, J.Schröder, W.A.Wall, J.Bonet, 11th Edition, Springer, 2011 4. Engineering Mechanics - Dynamics by J.L.Meriam, L.G. Kraige, 7th Edition, Wiley,2013

Required Reading

1. Engineering Mechanics: Dynamics by R.C. Hibbeler, 13th Edition, Prentice Hall, 2012

Grading

Quiz/Homework - 20%
Midterms - 60%
Final - 20%

Learning Activities and Teaching Methods Others:

Course Coordinator:

Dr. Rıza Secer Orkun Keskin

Student Workload:

Workload	Hrs
Lectures	42
Course Readings	35
Exams/Quizzes	50
Total Workload	127

Course & Program Learning Outcome Matching: